Development of a Driver Lateral Control Model by Integrating Neuromuscular Dynamics into the Queuing Network-Based Driver Model

Luzheng Bi; Mingtao Wang; Cuie Wang; Yili Liu

doi:10.1109/TITS.2015.2409115

Development of a Driver Lateral Control Model by Integrating Neuromuscular Dynamics into the Queuing Network-Based Driver Model

Luzheng Bi^*, Mingtao Wang, Cuie Wang, Yili Liu

^*Corresponding author for this work

School of Mechanical Engineering

Research output: Contribution to journal › Article › peer-review

26 Citations (Scopus)

Abstract

This paper describes the development of a novel driver lateral control model by integrating the driver's neuromuscular dynamics into the queuing network (QN)-based driver lateral control model. Experimental results from 16 participants in a driving simulator show that, compared to the QN-based model, the proposed model performs better, and its performance is closer to that of drivers when a vehicle runs at a relatively high speed. The proposed model not only has the advantages of the models based on a cognitive architecture but also captures the dynamic interaction between the vehicular steering system and the driver's neuromuscular system. Thus, it can better represent driver lateral control and has greater value in supporting the development of driver assistance systems.

Original language	English
Article number	7062020
Pages (from-to)	2479-2486
Number of pages	8
Journal	IEEE Transactions on Intelligent Transportation Systems
Volume	16
Issue number	5
DOIs	https://doi.org/10.1109/TITS.2015.2409115
Publication status	Published - 1 Oct 2015

Keywords

Driver assistance system
driver lateral control
neuromuscular dynamics
queuing network

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10.1109/TITS.2015.2409115

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title = "Development of a Driver Lateral Control Model by Integrating Neuromuscular Dynamics into the Queuing Network-Based Driver Model",

abstract = "This paper describes the development of a novel driver lateral control model by integrating the driver's neuromuscular dynamics into the queuing network (QN)-based driver lateral control model. Experimental results from 16 participants in a driving simulator show that, compared to the QN-based model, the proposed model performs better, and its performance is closer to that of drivers when a vehicle runs at a relatively high speed. The proposed model not only has the advantages of the models based on a cognitive architecture but also captures the dynamic interaction between the vehicular steering system and the driver's neuromuscular system. Thus, it can better represent driver lateral control and has greater value in supporting the development of driver assistance systems.",

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AB - This paper describes the development of a novel driver lateral control model by integrating the driver's neuromuscular dynamics into the queuing network (QN)-based driver lateral control model. Experimental results from 16 participants in a driving simulator show that, compared to the QN-based model, the proposed model performs better, and its performance is closer to that of drivers when a vehicle runs at a relatively high speed. The proposed model not only has the advantages of the models based on a cognitive architecture but also captures the dynamic interaction between the vehicular steering system and the driver's neuromuscular system. Thus, it can better represent driver lateral control and has greater value in supporting the development of driver assistance systems.

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Development of a Driver Lateral Control Model by Integrating Neuromuscular Dynamics into the Queuing Network-Based Driver Model

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Keywords

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